Gyroscope.



H. ANSGHiI't Z-KAEMPFE. I

GYROSGOPE.

APPLICATION FILED 001212, 1907.

Patented 001;. 25, 1910.

2 BHEE'I'B SHEET 1.

Inventor Hermann Anschiitz-Kqempfe.

By his Attorney,

Witnesses F X H. ANSGHUTZ-KAEMPPB.

GYROSGOPE. 7 APPLICATION FILED 00T.l2,1907.

973,61 1. Patented 001;. 25, 1910.

2 SHEETS-SHEET Z.

In wen Z012 HEBMANN anscnfirz-xannrrn, or KIEL, GERMANY.

G'YBOSCOPE.

Specification of Letters Patent.

Patented Oct. 25, 1910.

Application filed October 12, 1907. Serial No. 397,073..

To all whom it may concern:

Be it known that I, HERMANN KAnzw-rrrn, doctor of philosophy, a subject of the Empire of Germany, residing at Damlnstrasse, Kiel, in the Kin dom of Prussia, Germany, have invente and useful Improvements in Gyroscopes, of

a which the following is a specification.

This invention relates to a gyrosco ic apparatus 1n which the disturbing 1n uences to which a g roscope, having'its axis of ro-' tation held ast in a horizontal plane on a movable support, is generally subjected, and which tend to destroy the equilibrium are balanced.

Figure l of the drawings shows a practicable embodiment of a form of the invention in vertical cross section. Fi 2 is a top plan view of the mechanism il ustrated in Flg. 1. Fig. 3 shows a side view of the mechanism illustrated in Fig. 1, but seen at about right angles to the position illustrated in Fig. 1. q

The invention is based on the well known fact that a gyroscope, the axis of rotation of which is entirely or partly fixed in the horizontal plane, makes oscillations about the meridian. These oscillations can best .be

compared to those of a pendulum, only that they take place much more slowly. Only after a large number of oscillations the yroscope, owing to the damping action of riction, comes'again to rest in the meridian in order to recommence oscillating as soon' as anoutside force disturbs its equilibrium posit-ion. These outside forces are in practice chiefly acceleration pressures which act on the gyroscopic apparatus and always ap-' pear when the gyroscopic apparatus 1s mounted on a movable support. It may be said that an ordinary gyroscope on a ship could not be used as a compass, as the instruments own oscillations cannot be distinguished from the movements of the ship owlng totheir long duration.

The object of this. invention is to prevent these oscillations as much as possible and in the event of their taking place to damp them quickly without aflecting the accuracy of adjustment of the gyroscope in the meridian. This is effected by a combination of two different gyrosco es whichare rigidly connected to one and t e same vertical spindle, so tha -an angular rotation? or gyration of one gyroscope brings about a similar angular .rotation of the other gyroscope. The

ANsoHt'rrzlations.

certain new two gyroscopes are however, so formed that they have diiferent periodic time of oscil-. h

is, as is well known, dependent on the one hand on the impulse acting on the gyroscope,

and on the other hand on the force wh1ch also any impetus which the director may ex-.

perience owing to the force of acceleration. The workin of the combined apparatus is as follows: T e quickly oscillatin director has the tendency to carry with it t e slowly oscillating damper, and consequently exer- The periodic time of oscillations cises a turningmovementor torque on the same about. the vertical axis.- This torque results" however, in accordance with the gyroscope laws, in an elevation orraising of the axis of the damper. Owing to this elevation, a force may be released which exercises a braking action on the director until, owing to the stability of the damper, the latter comes back into the horizontal position. Then the same process begins again. It'will beseen that in this wa ingly strong damping of the dlrector is obtamed, whi e the exact adjustment in the meridian is in no way affected, as the damper itself has also the tendency to bring its axis to coincide with the merid1an.' A similar resuit is obtained when forces of acceleration act on the gyroscope system, that is, the angle of error is in inverse ratio to the time of oscillation. The error of the damper can,

an exceed therefore be easily maintained within such small limits that'it need not be considered in lation of the compass rose, are rendered impossible or maintained wlthin the required limits.

A constructional form of the g'yroscopic In that way an oscilla apparatus in accordance with the invention is illustrated in the accompanyin drawing. The construction selected for th1s illustration is one in which the damper has three degrees of freedom, that is to say, an endless time of oscillation. The method of operation will'thus be easier to understand. It must however, be expressly mentioned that the chief point is merely a difference in the periodic time of oscillation of the two gyroscopes.

The braking of the director, which in this particular case may also be constituted by a return rotation, is obtained in the gyroscopic apparatus illustrated by means of an electric rotatin field, the circuit of which is closed by the amper in such manner that it exercises its action in every case in the correct direction.

When certain terms and expressions herein employed are considered in the light of ultra technical dictionary definitions there are not found two complete and independent gyroscopes, since each of the gyroscopes illustrated herein employs some of the portions of the structure of the other for its completion. There are two connected structures, each gyroscopic in itself, and these may, for convenience, be termed gyroscopic members, each of which is connected to the rotatable spindle mounted in a vertical position and embodying the said spindle to constitute a rosco e.

In a vessel l whic is'suspended by means of a gimbal joint, is arranged a capsule or casing 3 containing the gyroscopic apparatus." The casing 1s rotatably mounted in pins 4 about a vertical axis, the intermediate space between the vessel 1 and the casing 3 being preferably filled with some liquid, for instance alcohol. The gimbal joint herein illustrated comprises a rmg 50 supported by screw studs 51 carried by the upstanding bracket 52. Screw studs 2 are shown passing through the ring 50 and engage socket bosses 2 carried by the vessel 1. These screw studs 2 are set quartering with the studs 51. The casing 3 is divided by means of a partition 5 provlded with a perforation 6 into two compartments, the bottom one of which contains a .gyroscope with short periodic time of oscillation (director) and the upper one a gyrosco e with a long periodic time of oscillation (diimper). According to the above assumption, the latter has three degrees of freedom. The bottom gyroscope consists of a fly wheel 7 mounted on a spindle sand rotated for instance, by an electric motor 9. The spindle is supported with its journals 10 in a frame 11 which forms a portion of the vertical axis of rotation a a. The fl wheel 7 of this oscope has therefore .twodegrees of eedom for it can rotate about the vertical axis a a and the horizontal exist I; while the third degree of freedom,rotation about the axis 51- 51 of the universal or gimbal joint 251 1s destroyed to a large extent by the welght of the apparatus. In the upper compartment, into the vertical axis of rotation a a is built a frame 12, the bottom cross-member of which is visible in cross-section at 13. In the said frame is rotatably mounted, about a horizontal spindle 14, (which in Fig. 1 of the drawing must be imagined to be perpendicular to the plane of the paper) another frame 15, and in the latter frame is rotatably mounted by means of journals 16 a horizontal spindle on which are mounted the fly wheels 17 and the driving motor 18 of the second gyroscope. The said second gy; roscope has, therefore, three degrees of freedom since it can oscillate first about the vertical axis a a which it has in common with the lower gyroscope, then about the spindle 14 which can be marked as axis 0 c and which as already stated, is at a right angle to the plane of the paper, and finally about the horizontal axis of rotation d (1 about which the fly wheels 17 rotate and which may be spoken of as the axis of elevation.

The mechanical construction of the apparatus being sufliciently obvious no additional explanation of the drawing need be given.

The frame 11 of the lower gyroscope is secured by means of a column 19 to the wall of the casing 3. On the upper bridge or cross-member of the frame 11 is mounted a column 20 and to this latter is screwed the bottom cross-member of the frame 12, the upper cross member of which is secured by a screw 21 to the upper wall of the casing.

The two frames 11 and 12, are therefore, rigidly connected together and rotate with the casing 3 to which they are secured, about the vertical axis a a determined b the ins or journals 4. On the upper sur ace 0 the casmg 3 is arranged the rose 22 of thecompass which can be seen by the observer through the lass plate 23. The bottom journal 4 of t e spindle a (1 passes through the casing 1 and is provided at its end with "a rotor 30 of a threebase current motor, the stator 31 of which is secured to the easing 1.

The workin of the apparatus is as follows :If the y wheel 7 1s caused to rotate quickly by the electro-motors 9, the horizontal axis of rotation b b adjusts itself to the meridian and tries to maintain that position. If a disturbance occurs, under the influence of which the rotating spindle tries to move out of its direction, that is to say, to turn about the vertical axis a a the frame 11 receives a rotation impulse about the vertical' axis, and therefore also the frame 12 which is secured to the frame 11. In the frame 12, is, however, mounted the spindle 14 c a which in its turn carries the frame-15..

35 tact studs or to the motor.

The disturbance produced has, therefore, the tendency toturn the spindle 14; c) in the horizontal plane out of its direction normal to the plane of the paper in Fig. 1. This action on the spindle 14 (0 a) is, however,

converted in accordance with the well known gyroscope laws, into an oscillation of the frame 15 about the said spindle 14 (c 0) in the vertical plane thatis to say, into an el e 1'0 vation of the axis of rotation of the fly wheels 17. The result is, therefore, that the tendency dueulo I turn the vertic l spindle, does not manifest itself by such a turning, but by an elevation i 15 of the axis d d of the gyroscope with three degrees of freedom, so that, therefore no turning ofthe. gyroscope takes place about the vertical axis and the horizontal axis b b retains the direction of the meridian. The frame 15 carries two arms 24 and 25 at the end of each of which are two contact studs 2627,* and 2829, under which are respectively situated mating contacts 26-27 and 2829. As soon as the elevation axis 25 has reached a certain angle with the horizontal in one or in the other direction, either the contacts on the arm 24, or those on the arm 25, close the circuit in the rotor 30of the three-"phase current motor, the current 30 supply wires of which are introduced by.

means of contact rin s through one of the 'hollow journals 4 and connected to the terminals I, II, III, from which, as can be seen from the drawing, wires leadto the con- The three-phase motor is so connected that it'always rotates in such direction that its torque always brings the gyroscope 17 back to its initial or horizontal position, The momentum prov 40 ducedby the motor acts, therefore, in opposition to the disturbing momentum and thus prevents the gyroscope 7 from'makin'g an oscillation constituting an error. Y As" the electric contacts are closedv only? I afterthe axis'of elevation-has'been inclined I to a certain angle, smaller movements about the axis a a are absorbed by; the energy of the gyroscope 17 itself, while in the case of stronger momenta or in the case of a sum- 50. ming of smaller momenta, the motor lends assistance. It may accordingly be possible for, certain purposes in which the errors can-.

not always combine, that is to say, presum- I ably couldnot exceed a given value,to'make" the energy of thedamper so great. thata correction by means of an ou'tsideauxilia'ry force .(three phase current motor) becomes altogether unnecessary. What I claim as my invention and desire I. The combination with a rotatablespindle and means for sustaining said spindle to secure by Letters Patent is in a vertical position, of two gyroscopic members eachconnected to said spindle and embodying the said spindle to constitute a gyan outside disturbance to roscope, one, of said members having its 1 center of gravity below its; horizontal axis whereby said members will have different periodic times of oscillation.

2. In a gyroscopic apparatus, a frame, a fly wheel within said frame, means for preventing vertical movement of the axis of said fly wheel, means for supporting a fly wheel upon said first-mentioned frame and means for allowing vertical movement of the axis of said last-mentioned fly wheel. substantially as described.

3. In a gyroscopic apparatus aframe, a flywheel within said frame, an upper frame connected to said first-mentioned frame, a 30 fly wheel within said upper frame and means for controlling the movements of the lower fly wheel by the oscillations of the upper frame, substantially as described.

4. In a gyroscopic apparatus a rotatable frame, a plurality of fly wheels therein, a

casing supporting said frame, a motor upon said casing and having its rotor attached to said rotatable frame and 'means for energizing said motor by the gyroscopic move ments of one of said fly wheels substantially member, a universal joint for supportingthe 1 r05 rotarymember, and means for maintaining the axis of said member vertical; mid -the axis of said; fly wheelhorizontal,of a frame mounted on said rotary member for'os'cilla-q tion in a vertical plane embracing thea'xis of rotation of the first mentioned *fiy'wheel', and a fl wheel-"mounted in said frame and having its axis of rotation in said lane, the

.center of gravity of the. apparatus eingslow relative to said universal ointwhereby the periodic times ofoscillation of 'th gyro scopes will be different.

a gyroscope havin '7'.;In .a gyroscopicapparatus, the Jcombination wi a rotary .member, a fly wheel journaled in said roit'ary member, a universal oint for supportmg the rotary member, an -=means for maintaming the axis of said member vertical and the axle of said-fly, wheel horizontal, ofa frame mounted on saidrotary member for oscillation in a vertical plane embracin the axis of'rotation of the first mentione flywheel, and apair of fly wheels mounted in said frame andhaving their axis of rotation in said plane, said mechanism constituting with said rotary member a gyroscope, the center of gravity of the apparatus being low relative to said universal joint whereby the periodic time of oscillation of the gyroscopes will be different.

8. The combination with a director gyroscopic member having short periodic time of oscillation, and means for supporting the same and resisting the oscillations thereof in a vertical plane and permitting oscilla tions about a vertical axis, of a dam er gyroscopic member having long periodic time of oscillation, and supporting means for this connected to the supporting means for the director gyroscopic member and oscillatory therewith about the vertical axis.

9. The combination with a main gyroscopic member and means for supporting the same and resisting the oscillations thereof in a vertical plane and permitting osci1lations about a vertical axis, of a subsidiary gyroscop1c member having periodic tlmes of oscillation diflerent to those of the main g5 roscopic member and supporting means for this connected to the supporting means for the main gyroscopic member and oscillatory therewith about the vertical axis.

10. In a gyroscopic apparatus, the combination with a frame rotatable upon a vertical axis, a fly wheel mounted in said frame and means for restraining vertical oscillations of the axis of said fly wheel, of a fly wheel and means for supporting said fly wheel on said frame for permitting vertical oscillations of the axis thereof.

In witness whereof I have hereunto signed my name this 20 day of September 1907 in the presence of two subscribing witnesses.

HERMANN ANSCHllTZ-KAEMPFE. 

